DE2727827A1 - RING MAGNET ARRANGEMENT - Google Patents

Description

Shokichi KUMAKURA

5-3 / Funabori 2 chome, Edogawa-ku, Tokyo, Japan

Ring magnet arrangement

The invention relates to a ring magnet assembly according to the preamble of claim 1 and thus generally falls into the field of electromagnetic machines with permanent magnets.

As is known, ceramic permanent magnets, for example those made of ferrite, can be used in electromagnetic machines. A ceramic magnet can be magnetized in the radial direction and has the pole faces on itself. It can now have a high reluctance along a path running parallel to the pole faces, so that there is no need to provide an angular distance between the pole pieces or any pole pieces at all Use of the usual Alnico magnets are required. Because of the difficulty of manufacturing a single radially magnetized ceramic magnet ring, a plurality of arcuate ceramic magnets must be assembled into a ring assembly in applications such as an electric machine.

The use of a ring arrangement of arcuate magnets in an electrodynamic machine is known (USA-PS 3663850). Here, the permanent magnets are initially arranged along the inside of an annular retaining strap so that a gap remains between the ends of adjacent magnets, into which elastic spacers or spring members are inserted. These members exert a compressive force on the adjacent ends of the magnets, which are thus held firmly against the annular band, so that a self-retaining pre-assembly unit is formed. The pre-assembly unit thus formed is placed against an annular inner surface of the machine of the same diameter as the tape and the tape is removed, whereby the ring arrangement of the magnets remains in a fixed arrangement on the machine surface.

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The arrangement described requires the sequential one
Insertion of the spacers or springs in the spaces
between the successive neighboring pairs of magnets, the last piece to be inserted having to be inserted while temporarily overcoming the compressive force that is applied by the opposing magnets and exerted by the springs that have already been mounted. To ensure an inevitable retention effect, the spacers or springs must be relatively large and made of a material that is durable for a long service life. An enlarged gap is therefore required between the magnets, which rules out the use of an arrangement of very many magnets which are only slightly spaced from one another. Since the arrangement described is supported against a surface surrounding it, it cannot be mounted on an internal rotor or stator.

In contrast, the invention characterized in claim 1 is a ring arrangement of a plurality of arcuate
Permanent magnets formed by simple construction and
is easy to manufacture and allows a small distance between the magnets. The construction can be very rigid and can be attached to a rotor outer surface as well as to a
Stator inner surface are applied.

According to a preferred embodiment, the frame part is produced by pouring a casting resin into a mold in which the magnets are arranged in the correct alignment. The ends of the magnets can be bevelled edges by grinding
have which form the depressions. The ring arrangement of the permanent magnets is radially aligned with the two ring parts of the frame. Each of the permanent magnets consists of a ceramic material and a plurality of pole faces are arranged directly in the second face, with each pole face having a magnetic pole
of radial magnetization.

The ring magnet assembly according to the invention can be in various ways depending on the concentric relationship between
the rotor and the stator of the electrical machine into which the

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Magnet arrangement is used, be modified. In general, the arrangement can be applied to many types of electrodynamic machines will. Additional recesses can be the same in the first of the larger areas between the adjacent magnets the channel-like depressions, which are formed in the second of the larger surfaces, be present, through the additional webs of the frame. The individual magnets of the arrangement are rigidly held at their ends by these webs and are gripped by the two ring parts of the frame on their opposite sides. Instead of the additional bars, the first Surface of the magnets also have an annular band of magnetizable material with which it is covered and which is called magnetic path is used between adjacent magnetic poles in the first of the larger surfaces, creating a leakage flux from the Magnet poles to the mounting surface of the machine is prevented, the thus can be made of a non-magnetic material.

In the ring magnet arrangement according to the invention, the permanent magnets are Arranged end to end with a small indentation in between, so that the distance between two adjacent magnets can be kept to a minimum, with the result that the number of magnetic poles formed can be very high and a high one Effectiveness of the machine is ensured even at a low speed of the machine.

Further details, advantages and developments of the invention emerge from the following description of preferred exemplary embodiments with reference to the drawing. Show it:

1 shows a longitudinal section through a bicycle power generator with a rotor on which the ring magnet arrangement is mounted;

Fig. 2 is a partial longitudinal section corresponding to Fig. 1 of a similar one Bicycle power generator but with the ring magnet assembly mounted on its stator;

3 shows a perspective view of the ring magnet arrangement according to FIG. 1 or 2;

FIG. 4 shows a partial cross section in a plane 4-4 in FIG. 3; FIG.

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FIGS. 5 and 6 are partial cross-sections corresponding to FIG. 4 of other embodiments the ring magnet arrangement for use in a generator * according to FIG. 1; and

7 shows a partial cross section of a further embodiment the ring magnet arrangement for use in a generator according to FIG. 2.

A bicycle power generator 1, called a "dynamo", contains an inventive ring magnet assembly 2 made of arcuate magnets, each with a plurality of alternating north and southern Poland. A hub disk 3 of the bicycle has an edge, on the annular inner surface of which the ring magnet arrangement is attached, for example, with the aid of an adhesive. The generator comprises a stator 5 which is concentric within the ring magnet arrangement 2 is arranged with a narrow gap in between.

The bicycle hub 6 has a mounting flange 7 on which the Hub washer 3 is firmly seated. The hub 6 is rotatable on an axle 9 mounted in a known manner in a frame 8 via two axes Ball bearings 10, 11 are arranged. She has one at one end Holes 13 provided flange 14, the anchoring of Spokes 12 are used. Another set of spokes 15 is in holes 16 in a small flange 17 extending from the end of the rim 4 stretched out, anchored.

Between a stationary raceway 18 of the bearing 10 and one

Clamping nut 19, both of which are screwed onto the axle 9,

20 /

A stationary drum is held, which can consist of a non-magnetic material such as aluminum and has an annular rim 21, on the outer surface of which the stator 5 is fastened, for example by an adhesive, which has a conventional structure. Briefly, it comprises two complementary core bodies 22, 23, which together form a hollow annular core and are formed on their outer circumferential surface with a plurality of intermeshing comb-like pole pieces, furthermore one on a bobbin 24 which is inserted into the hollow space between the core bodies 22 and 23 is fitted, seated

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Coil 25, the winding of which is concentric to the core. The pole pieces of the core bodies 22, 23 have a small distance from the inner surface the ring magnet assembly 2.

According to FIG. 3, the ring arrangement according to the invention consists of a Ring of arcuate permanent magnets 29, which rest end to end and recesses 34, 35 (Fig. 4) with triangular Have cross-section, both in the outer surface and in the inner surface of the magnetic ring between adjacent magnets and a frame 41 for rigidly holding the ring assembly. The frame 41 includes two ring parts 30, 31, which are opposite Grip sides of the ring assembly, and webs 32, 33 which extend through the channel-shaped depressions 34 and 33, respectively. 35 extend and connect the two ring parts 30 and 31 to one another. Each permanent magnet 29 is made of ceramic material that has been formed in a known manner in the magnetic field so that it is magnetized in the radial direction of the ring arrangement. On his The ring arrangement is provided with a plurality of alternating north poles and south poles on the outer surface and on its inner surface. the opposite ends of the individual magnets 29 are ground to a tapering shape to determine the depressions. The frame 41 is made so that a resin is poured into a mold in which the ring arrangement of the magnets 29 carefully is positioned. The two ring parts 30 and 31 can have a radial extension equal to that of the arrangement 2. The webs 32, 33 are separate elements in the example shown, but they can be integrally cast by adding a smaller Distance between the ends of the neighboring magnets is maintained.

In the generator 1 according to FIG. 1, the ring magnet arrangement 2 rotates together with the hub disk 3 and on the coil 25 on the stator 5 a voltage is induced under the influence of the magnetic field generated by the magnets 29. Since the hub disk 3 with a If the number of revolutions is on the order of 120 rpm, it is desirable that the generator have high magnetic efficiency. In this regard, the number of magnetic poles available is in

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the arrangement is very high and at the same time the hub disk 3 is made with the edge 4 of magnetizable ^ material, so that the edge lies as a magnetic path of minimal length between the adjacent magnetic poles and thus lowers the steuflux.

In the illustrated embodiment, a cover plate 26 is connected to the drum 20, which prevents foreign bodies from making their way find in the gap between the ring magnet assembly 2 and the stator. One end 37 of the cover plate 26 is at a distance in a Step 36 was added, which is formed in the ring part 31 of the ring magnet assembly 2. Located between the stator 5 and the cover plate 26 a spacer 27 made of non-magnetic material. The cover plate 26 carries clamps 28 (only one of which is shown is) for connecting lead wires to the coil 25 through the spacer 27.

In the generator according to FIG. 2, the ring magnet arrangement according to the invention is 2 attached to its stator. Parts corresponding to the parts according to FIG. 1 are provided with the same reference numerals. Of the The generator according to FIG. 2 has a rotor 50, the annular core and coil arrangement of which is similar to that according to FIG. The rotor 50 is around the annular inner surface of the rim 4 with the interposition of a spacer 38 'of non-magnetic material arranged. The ring magnet arrangement 2 with an unchanged construction compared to FIG. 1 is carried by the edge 21 of the drum, which in this case consists of magentizable material. At a Such a generator must have a slip ring arrangement for taking off the output voltage from the rotor 5, which however is not shown for the sake of clarity.

Fig. 5 shows a further embodiment of the ring magnet arrangement 2. In this embodiment, the webs 32 and 33 also belong to the frame 41. On the outer surface of each magnet 29 is a Plate 38 made of magnetizable material is glued on. Using This ring magnet arrangement 2 in the generator according to FIG. 1, the hub disk 3 can consist of non-magnetic material.

Fig. 6 shows a modified magnet arrangement which corresponds to that of FIG. 3 with the exception that the webs 32 through

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an annular band 39 of magnetizable material are replaced, which covers the outer surface of the assembly. This arrangement can be used in the generator according to FIG.

Fig. 7 shows a modification of the embodiment of Fig. 6 in that an annular band 40 of magnetizable material is attached to the inner surface of the assembly. This arrangement can be used in the generator according to FIG.

The ring magnet arrangement according to FIG. 6 or according to FIG. 7 can be produced in such a way that the band 39 or 40 is arranged in the casting mold and a ring arrangement of the arcuate magnets 29 is applied along the outer surface or the inner surface of the tape before the resin is poured into the mold.

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Claims (8)

Shokichi KUMAKURA 5-3, Funabori 2 chome, Edogawa-ku, Tokyo, Japan Ring magnet arrangement Claims f 1.) Ring magnet arrangement for mounting on an annular or cylindrical surface of an electromagnetic machine for generating its magnetic field, with a plurality of arc-shaped permanent magnets, which are arranged in an annular arrangement to form a first and a second larger area
are, of which the first larger surface is to be brought into contact with the annular or cylindrical machine surface, characterized in that there are recesses (34, 35) and a frame (41) in the second larger surface between adjacent magnets (29) Non-magnetic material for rigidly connecting the magnets to one another, two ring parts (30,31) which engage tightly on the opposite sides of the ring arrangement, and webs (32,33) which extend through the recesses (34,35) and the two ring parts connect with each other. 2. Ring magnet arrangement according to claim 1, characterized in that the respectively adjacent magnets (29) end to end to one another. lie. 3. Ring magnet arrangement according to claim 1 or 2, characterized in that that there are further depressions (32,33) in the first area between the adjacent magnets (29) and the frame 709851/1254 men (41) further webs (32,33), which extend through the further Extend depressions and also connect the two ring parts (30, 31) to one another. 4. Ring magnet arrangement according to claim 1 or 2, characterized in that that an annular band (39,40) covers the first surface. 5. Ring magnet arrangement according to claim 4, characterized in that the band consists of magnetizable material. 6. Ring magnet arrangement according to one of claims 1 to 5, characterized in that the first surface and the outer surface the second surface is the inner surface of the ring magnet assembly (2). 7. Ring magnet arrangement according to one of claims 1 to 5, characterized in that the first surface and the inner surface the second surface is the outer surface of the ring magnet assembly (2). 8. Ring magnet arrangement according to claim 3, characterized in that the first surface forming the surface of the magnets (29) with a plate (38) made of magnetizable material is covered. .. 3